Skip to content

This project is official implementation of 'Efficient Non-Local Contrastive Attention for Image Super-Resolution', AAAI2022

Notifications You must be signed in to change notification settings

Zj-BinXia/ENLCA

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

28 Commits
 
 
 
 
 
 

Repository files navigation

Efficient Non-Local Contrastive Attention for Image Super-Resolution (AAAI2022)

Efficient Non-Local Contrastive Attention for Image Super-Resolution [Paper] [Project]

Python 3.8 pytorch 1.8

Contents

Introduction

Non-Local Attention (NLA) brings significant improvement for Single Image Super-Resolution (SISR) by leveraging intrinsic feature correlation in natural images. However, NLA gives noisy information large weights and consumes quadratic computation resources with respect to the input size, limiting its performance and application. In this paper, we propose a novel Efficient Non-Local Contrastive Attention (ENLCA) to perform long-range visual modeling and leverage more relevant non-local features. Specifically, ENLCA consists of two parts, Efficient Non-Local Attention (ENLA) and Sparse Aggregation. ENLA adopts the kernel method to approximate exponential function and obtains linear computation complexity. For Sparse Aggregation, we multiply inputs by an amplification factor to focus on informative features, yet the variance of approximation increases exponentially. Therefore, contrastive learning is applied to further separate relevant and irrelevant features. To demonstrate the effectiveness of ENLCA, we build an architecture called Efficient Non-Local Contrastive Network (ENLCN) by adding a few of our modules in a simple backbone. Extensive experimental results show that ENLCN reaches superior performance over state-of-the-art approaches on both quantitative and qualitative evaluations.

Train

Prepare training data

  1. Download DIV2K training data (800 training + 100 validtion images) from DIV2K dataset or SNU_CVLab.

  2. Specify '--dir_data' based on the HR and LR images path.

Our code is based on EDSR. For more informaiton, please refer to EDSR(PyTorch).

Run

# x4 SR
CUDA_VISIBLE_DEVICES=6 python main.py --dir_data /media/data2/xiabin/datasets --n_GPUs 1 --rgb_range 1  --save_models --lr 1e-4 --decay 200-400-600-800 --epochs 1000 --chop --save_results --n_resblocks 32 --n_feats 256 --res_scale 0.1 --batch_size 16 --model ENLCN --scale 4 --patch_size 192 --save ENLCN_x4 --data_train DIV2K --data_test Set14

# x2 SR
CUDA_VISIBLE_DEVICES=6 python main.py --dir_data /media/data2/xiabin/datasets --n_GPUs 1 --rgb_range 1  --save_models --lr 1e-4 --decay 200-400-600-800 --epochs 1000 --chop --save_results --n_resblocks 32 --n_feats 256 --res_scale 0.1 --batch_size 16 --model ENLCN --scale 2 --patch_size 96 --save ENLCN_x2 --data_train DIV2K --data_test Set14

Test

Quick start

Pre-trained models can be downloaded from google drive.

# x4 SR
CUDA_VISIBLE_DEVICES=6 python main.py --dir_data /media/data2/xiabin/datasets --n_GPUs 1 --rgb_range 1  --chop --save_results --n_resblocks 32 --n_feats 256 --res_scale 0.1 --batch_size 16 --model ENLCN --scale 4 --save ENLCN_x4 --data_test Set5+Set14+B100+Urban100 --pre_train ENLCAx4.pt --test_only

# x2 SR
CUDA_VISIBLE_DEVICES=6 python main.py --dir_data /media/data2/xiabin/datasets --n_GPUs 1 --rgb_range 1  --chop --save_results --n_resblocks 32 --n_feats 256 --res_scale 0.1 --batch_size 16 --model ENLCN --scale 2 --save ENLCN_x2 --data_test Set5+Set14+B100+Urban100 --pre_train ENLCAx2.pt --test_only

Results

Quantitative Results

PSNR/SSIM comparison on popular SR benchmark datasets is shown below (best in red, second best in blue).

Visual Results

Visual comparison (x4) is shown below.

Citation

If you find the code helpful in your resarch or work, please cite our papers.

@article{xia2022efficient,
  title={Efficient Non-Local Contrastive Attention for Image Super-Resolution},
  author={Xia, Bin and Hang, Yucheng and Tian, Yapeng and Yang, Wenming and Liao, Qingmin and Zhou, Jie},
  booktitle={AAAI},
  year={2022}
}

About

This project is official implementation of 'Efficient Non-Local Contrastive Attention for Image Super-Resolution', AAAI2022

Topics

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published